Satellite finds rising carbon dioxide levels in upper atmosphere

Monday, November 12, 2012

WATERLOO, Ont. (Monday, Nov. 12, 2012) - A research project with its roots at the University of Waterloo has found that human activity is raising levels of carbon dioxide (CO₂) in the uppermost layers of the atmosphere.

It is the first hard evidence that such levels are increasing there at a faster rate than can be explained by solar activity or exhaust from rocket launches. The project’s CO₂ measurements are reported in the latest issue of Nature GeoScience.

In the earth’s atmosphere, CO₂ molecules can accumulate energy through collisions with other atmospheric gases and then emit this energy as infrared radiation (heat). Near the earth's surface, CO₂ contributes to a heating of the atmosphere, making it a key factor in climate change. However, in the upper atmosphere, some of the infrared radiation emitted by CO₂ makes it to space, thereby inducing a cooling of the upper atmosphere and causing it to contract. This effect reduces atmospheric drag on low-orbiting satellites and space junk. Objects will stay up longer before plunging to a fiery end deeper in the atmosphere. While it could aggravate the problem of space clutter, it may also reduce the use of fuel-consuming booster rockets required to keep in position large vehicles, such as the International Space Station.

“There hasn’t been a lot of measurement of atmospheric chemistry at these high altitudes,’’ said Chris Boone, a research associate in the Department of Chemistry at Waterloo. “This is a very unique data set.”

Boone and former Waterloo chemistry Professor Peter Bernath were part of the research team. Bernath is now chair of Department of Chemistry and Biochemistry at Old Dominion University, in the U.S. They joined colleagues John Emmert, Michael Stevens and Douglas Drob of the Naval Research Laboratory in Washington to analyze eight years of readings taken by satellite as part of the Atmospheric Chemistry Experiment (ACE).

ACE is comprised of a set of scientific instruments onboard the Canadian satellite SCISAT-1, which is orbiting the earth at an altitude of 650 km. These scientific instruments stare at the sun and measure the spectral pattern that was absorbed from the sunlight as it passed through the atmosphere, from which one can infer the atmospheric concentrations of CO₂ and dozens of other gases. Professor Bernath initiated the ACE mission when he was at Waterloo.

ACE has previously provided scientists with information about air pollution and ozone depletion, among other things. Beamed to ground stations in Canada, Alaska, and Sweden, readings from SCISAT-1 are processed and archived at Waterloo’s space operations centre in the Department of Chemistry.

About the University of Waterloo

In just half a century, the University of Waterloo, located at the heart of Canada's technology hub, has become one of Canada's leading comprehensive universities with 35,000 full- and part-time students in undergraduate and graduate programs. Waterloo, as home to the world's largest post-secondary co-operative education program, embraces its connections to the world and encourages enterprising partnerships in learning, research and discovery. In the next decade, the university is committed to building a better future for Canada and the world by championing innovation and collaboration to create solutions relevant to the needs of today and tomorrow. For more information about Waterloo, please visit www.uwaterloo.ca.

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